Dans Pokémon, il existe 18 types:

Normal    Fighting  Flying  Poison  Ground  Rock
Bug       Ghost     Steel   Fire    Water   Grass
Electric  Psychic   Ice     Dragon  Dark    Fairy

Un Pokémon peut avoir une frappe simple ou double. Par exemple, Pikachu est Electricet Tyranitar est Rock/Dark. L'ordre des types n'a pas d'importance. Un Pokémon ne peut pas avoir le même type deux fois. Un coup d'attaque a exactement l'un des 18 types ci-dessus.

• Certains types de Pokémon sont faibles face à un certain type d'attaque. Par exemple, un FirePokémon est faible face aux Waterattaques. Cela donne un multiplicateur de dégâts de 2.

• Certains types de Pokémon sont résistants à un certain type d'attaque. Par exemple, un RockPokémon est résistant à une Normalattaque. Cela donne un multiplicateur de dégâts de 0.5.

• Certains types de Pokémon sont immunisés contre un certain type d'attaque. Par exemple, un FlyingPokémon est immunisé contre une Groundattaque. Cela donne un multiplicateur de dommage de 0.

Un pokémon peut être doublement faible, doublement résistant ou toute autre combinaison contre un type attaquant. Multipliez les multiplicateurs pour obtenir une efficacité totale.

Ecrivez un programme ou une fonction qui donne un type de mouvement et une typographie Pokémon génère le multiplicateur de dégâts total de l'attaque. Une typographie Pokémon est toujours écrite sous la forme Aou A/B, où Aet Bsont des types distincts de la liste ci-dessus. Vous devez accepter la saisie de Pokémon dans ce format. En dehors de cette restriction, vous pouvez participer de manière raisonnable. Un exemple de format d'entrée acceptable est:

"Ice", "Dragon/Flying"

Mais c'est inacceptable:

["Ice", ["Dragon", "Flying"]]

Votre sortie doit correspondre exactement à l’une des chaînes suivantes, suivie d’un retour à la ligne facultatif:

0x    0.25x    0.5x    1x    2x    4x

Exemples

Ground, Fire -> 2x
Normal, Rock/Dragon -> 0.5x
Fighting, Ghost/Steel -> 0x
Steel, Water/Steel -> 0.25x
Ice, Dragon/Flying -> 4x
Water, Ground/Water -> 1x
Ghost, Ghost -> 2x

Type d'efficacité

Pour une charte graphique conviviale, j'aimerais vous référer à Gamepedia . Pour rendre le processus de golf un peu plus rapide, je vais vous donner une matrice d’efficacité compressée et conviviale. Divisez chaque nombre par deux pour obtenir le vrai multiplicateur (1 -> 0.5, 4 -> 2):

              Defending type
               (same order)

   Normal   222221201222222222
   Fighting 421124104222214241
A  Flying   242221421224122222
t  Poison   222111210224222224
t  Ground   220424124421422222
a  Rock     214212421422224222
c  Bug      211122211124242241
k  Ghost    022222242222242212
i  Steel    222224221112124224
n  Fire     222221424114224122
g  Water    222244222411222122
   Grass    221144121141222122
T  Electric 224202222241122122
y  Psychic  242422221222212202
p  Ice      224242221114221422
e  Dragon   222222221222222420
   Dark     212222242222242211
   Fairy    242122221122222442

Le code le plus court en octets gagne.

Pyth - 246 245 188 octets

Encode la matrice avec la compression de base, utilisera probablement l’indexation / hachage modulaire pour les index de la matrice, mais pour l’instant je n’ai rien fait d’excellent avec ceux-ci.

Lxc"NorFigFlyPoiGroRocBugGhoSteFirWatGraElePsyIceDraDarFai"3<b3.F"{:g}x"*Fm@@c19cR2KXjC"
©ªªå´ê۩涪©Y+ªº;oªnz®©Z»­*«ªºj«¥fëª×­ª¯«Z¥ö]©ªâªÖ»ªj*î¥zzªªj«ªº«¥¹ªZ«ë¥ª¾"4]3]4yzydcw\/

Suite de test .

Java, 663 639 582 octets

String f(String...a){float d=1;for(String B:a[1].split("/"))d*=("222221201222222222421124104222214241242221421224122222222111210224222224220424124421422222214212421422224222211122211124242241022222242222242212222224221112124224222221424114224122222244222411222122221144121141222122224202222241122122242422221222212202224242221114221422222222221222222420212222242222242211242122221122222442".charAt(g(a[0])*18+g(B))-48)*.5;return(d+"x").replace(".0","");}int g(String a){int i=0;for(;i<18;i++)if(a.contains("N,gh,ly,oi,ou,ck,B,ho,S,re,W,G,E,P,I,g,k,y".split(",")[i]))break;return i;}

Il existe une simple table de consultation occupant une grande partie de la pièce. Il trouve simplement les types corrects et les multiplie. Appelez ça comme ça:

f("Water","Ground/Fire")

Avec quelques sauts de ligne, cela ressemble à ceci:

String f(String...a){
    float d=1;
    for(String B:a[1].split("/"))
        d*=("222221201222222222421124104222214241242221421224122222222111210224222224220424124421422222214212421422224222211122211124242241022222242222242212222224221112124224222221424114224122222244222411222122221144121141222122224202222241122122242422221222212202224242221114221422222222221222222420212222242222242211242122221122222442"
                .charAt(g(a[0])*18+g(B))-48)*.5;
    return(d+"x").replace(".0","");
}

int g(String a){
    int i=0;
    for(;i<18;i++)
        if(a.contains("N,gh,ly,oi,ou,ck,B,ho,S,re,W,G,E,P,I,g,k,y".split(",")[i]))
            break;
    return i;
}

JavaScript (ES6), 287

Je n'ai pas vu une bonne compression des types, alors en voici un.

(a,b)=>b.split('/').reduce((j,p)=>j*[0,.5,1,2][parseInt("kjwhcgnj2xd6elihtlneemw82duxijsazl3sh4iz5akjmlmsqds06xf1sbb8d0rl1nu7a2kjwi3mykjwlbpmk1up4mzl1iuenedor0bdmkjwmpk6rhcg4h3en3pew5".substr((g=x=>[..."BWSEIRNulkcDPotyeG"].findIndex(c=>x.match(c)))(a)*7,7),36).toString(4)[g(p)]],1)+'x'

Ungolfed:

(a,b)=>{
  // keys is a list of letters found in the types of attacks/defenses
  keys = [..."BWSEIRNulkcDPotyeG"]; 

  // getIndex is a single case statement.
  // it checks each of keys, one-by-one, falling through until we've found the proper index
  getIndex=x=>keys.findIndex(c=>x.match(c));

  // encodedValues is a list, indexed by `keys`, where each value is 7-characters.
  encodedValues = "kjwhcgnj2xd6elihtlneemw82duxijsazl3sh4iz5akjmlmsqds06xf1sbb8d0rl1nu7a2kjwi3mykjwlbpmk1up4mzl1iuenedor0bdmkjwmpk6rhcg4h3en3pew5";

  // the 7-character value (e.g., B=0="kjwhcgn", W=1="j2xd6el") were created by 
  // turning base4 values into base36, so let's turn this back into a string the same way
  valuesForAttack = parseInt(encodedValues.substr(getIndex(a)*7,7),36).toString(4);

  // valuesForAttack is indexed by defenseType.  The value will be 0..3, depending on the multiplier

  // let's get an array of the multipliers and reduce...
  multiplier = b.split('/').reduce((oldMultiplier,defenseType)=>oldMultiplier * [0,.5,1,2][valuesForAttack[getIndex(defenseType)]],1);

  return multiplier+'x';
}

Oh, et voici mon tableau (en gardant à l'esprit qu'il a été commandé pour qu'une lettre ne corresponde à aucun des mots énumérés ci-dessous):

"Bug" => "B",
"Water" => "W",
"Steel" => "S",
"Electric" => "E",
"Ice" => "I",
"Rock" => "R",
"Normal" => "N",
"Ground" => "u",
"Flying" => "l",
"Dark" => "k",
"Psychic" => "c",
"Dragon" => "D",
"Poison" => "P",
"Ghost" => "o",
"Fighting" => "t",
"Fairy" => "y",
"Fire" => "e",
"Grass" => "G"

Pikalang, 868068 octets

C'était une trop bonne idée pour sauter. ( Merci, mbomb007. )

C'est fondamentalement une table de recherche sous-optimale. J'encode d'abord chaque type comme

((first_char + second_char * 2 + third_char * 3) mod 256) - 0x3c

Cela donne des représentations uniques pour chaque type. Le type vide (lorsque le pokemon en défense n'a qu'un seul type) est codé comme 0x00.

Après cela, j’utilise juste un fouillis d’ if-elseéquivalents pour vérifier toutes les ~ 5800 combinaisons.

Code

Stack Exchange ne m'autorisait pas à poster le code dans son ensemble, alors voici le format gzippé + base64.

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

Exemple

Apparemment, l'interprète officiel de Pikalang n'est pas encore prêt, mais comme c'est une substitution triviale de Brainfuck, je l'ai testée avec un interprète de Brainfuck.

$ base64 -d supereff.pokeball.gz.b64 > supereff.pokeball.gz
$ gunzip supereff.pokeball.gz
$ pikalang supereff.pokeball
Normal
Rock/Dragon
0.5x

L'entrée est séparée par une nouvelle ligne et nécessite une nouvelle ligne de fin.

Le programme utilise l'emplacement de mémoire -1. Par conséquent, si votre interprète refuse de sortir du côté gauche de la bande, ajoutez le code avec un pipiou un >(respectivement pour Pikalang et Brainfuck).

Brainfuck, 193708

Voici le même programme dans Brainfuck (également gzipped + base64'd).

H4sICGI+6FUAC3N1cGVyZWZmZWN0aXZlLWdvbGZlZC5iZgDtXQt2GzkOPJDjOYEeL6Ln+19jbHmsyKNPgwSqUCDpfTuTqBokgC4WAEab/dP+nN9Pb2/t4/vfn794u/x8/u79+vP54fnP399+tD9Gs/Z+bu+n043t+d3yc27t7XQ6v398fLR2Pr21t4/Tx4NNPx9pb1+PfrSvjz43PH8anR778vP5F9K+f9Hefv+035//7ynb00ePDX9+evjzmaDPn/eviNpXnN+/+f7V29d/v//xzPz880quL+b8339+v7Pz3a/Ot1bn91+v9vrx6YRZH7Xuz7/b7c8npd6/2PP70ytmBnuepYBQ4xf4/ec4N+0rv1fklByI4kxRcBFuQVaGUgmwL0fu2yrEivr8GETjbCKOg3Mxy4HzSVYnkpGduKR6Qif+ObNvquBDwGaRYp4hRD+bV+mRXoJ5ehQ0+cVHXaDAKc0xRyRwbRrs9B7xfAEpKlsizpAqG0gkWMLVgRwo6hb2eAqJGKSbAaxb8kohFRQimSsgvX7bgKP8y58tb3HJmREXtWo54TSfu17iAxUaI6TCWahMlk8qGqeUxiB8fnI5QTROA3se34LlBb14KiddzpFBAuH2twsjQKjxC7xTCV1u2lfWmkiLEYs6a4jNU7f43FyCpE/pYsG4HY5DbXIa5c+bfPEwvvOJ7ip+Nk9VJAalIs66bUU+M8XmRrg0w/aQIVz4SUnTlla2ec5936TJa5ZOWZgqD3HSwL5HLG/UihMspGF++AhJhcwrExlVtGq9BEni5nUfatw0tQks6NSXqKiZ8JXVCDUSGHWk9RvDW+5UB5v25NYZnlIZfAJSNHAXPkd2RToi0IoDiyZqpxqPuqMSz7V8cQvA2+RUcoJePIgFXXadK20ZUqKHAYxoaavMjBd+YQn282nJr8nJgXrHRQBcURrhjKJ2+a5FY1Yuz6X+kKF1k1yY+/FNpwAQOWImjv5aJXZCPjlwJLX4Rc+16UiKMoj0hEP8hNk3RRJmNG7Wfql607IkJ60jIndKCdtVKF4Co1ivazS6Z+VGkjejUWkoF79vVjpYV5DIrIT5ngOKEQK9uBKn7jantdeAdQWKjQFP8kyRWK6oFIY+nYncZedOieqQhws8tzKGnomkYddirCZYYnkU6NerdfpqjALFC88smTHsVrIHX4RSTrAfT+P2OLi1KQT04hyt8hrjPHt1QhAse0Cy2b+lB3s/6GoFrK6MVNcVRzE6iVRRGoXaejUWsjL8hZG6SCfY1qNTVD8u4t7guvtuwgoa8BePUFhVdWSUpNITFok3uwzeRJ6h8HORpjotUXgiz7Z4bw7ne6tTvWR66eRJ/chu99CjgaUIk0AbM+ToNLyadLh3eyI/4xtxNYlC5TV06WJz/j0+jTzdbS5UgVzG/G1z535TXE17roPGTpYVf92LDGiXweiAOQ0UvxZqCJUipZAhUyRGycdHIPRY/n1kJV7lGUfJYNB8GV0PN4lC8Iz+XuaG4RCMZtkTkk38hTxeM4bGISfMtenxjnXVMZ9PfIaOMsjl1LEGVqeSDUQSq0YdJXi2EJ8O81D4iqJz3S1OVrDf2PKJ1zWxATY4liwaPWEQeAy3ZMN7dMVINrCpDktu9ueeotTSJVbvwmt8hbKV2tjoDdv3+G6fQwKqKhrHICQQiLtkYs0z2duMojej4J6I1ESKdNKmkS3DI9OL1N3mpFlUqFy4jOuBqvMdJGpKVeR54PIQZayoWMmXBZIHv4oAKvIpPFQ7Z5ReTRroxZfg1Njnx2AJTzrttjIdhyqlALpXCMGeX0gWxLIDkk3wjTwHriOUepGM71RXGJWz76JV14rUTuAKlidPGB7BJuXGKwBcqD0z4IOJCuOHQL+3NckA9htHliGxZotU5bJo9IRBoxIenzDfAaZ1VqN7Wc9SmsQ0oMoYHkkqWMGSkNn4VylQKm1y3NsN9ny3x5gsuIzF+pyHj+T7TibUlKM60AhgBwIVlQnYKz98RIQ0OGa4jMWl6W5zocM1lL9MXx/iQsdDdWgbDdiLZ49BAt2dzxc1odKZ/sX68HwWVqLReJSDxvkT0WBUgqV7MTK9wOUZPGDX49aWIjeu1NQ76rfCeHdhl59eFnaRvh0XfP/AaHAUfAjYLGqnv58X+kPedJ5gu30tCtajR1/OMHyhTU6eeTZSRGaniQOPUK9ECdmKYk+h7zXxOmapafRJp1yfJd5cRhOG1qSM7mXZRnFGZxfozn0ZNMGyrXcPbQER7FcNy4Blf8VOdSgGJ9i1Kbm5yBGR48+JlKk/+vr2Vp+BD40k5KVfvQ2PhJ3FInNO9KbyrHHEMG7UZQqqiUFNbddKY59fQbURaDwaS7Q6Q5DnyYCgZytLtlSNBv4cl6tI2cIiwxFumnqMMklCjdsGTsyWcGNY8Rn7PMz/RdXEZNxpT55vVObpx+R3k8fGHepfIvYTHECOXcYQmvBj6ayZyOMm9z+vgevQOBhUGY9B43L8qa0lD/RtWlUSqZoJ261HJtfiQTqTZrRFqTcw5HRVXkGiF52WSYZHkkgF75O82/Ttkcae4AsFV8rs++YUO4ZKSZKkdUmMTM8cJwMu7+DzZ9luGZKNY3DUmNz3PMRzVOl/IJFPk07umMXijdCgoDKhWh/H0pnjuxxYkVNJ2YDsyAXz9bTls6oBieUyZshQFAPUVFFQplwsgmRLvAPScFuQSePRjmajZiMdGqXLt7Ygl7RWBpO0Z5ktRRzjFzhZmiCLhtdUB7966KX6/72pMZIZjLybBjudmzeZP9QzpEaMRJ1VzIH35OEIr9uEzaFF/OZZJDdz8yY4d5B2KM6OQ6k2OXHQn6PsRoz5NWsK6jhwPIsU2p34KS6BMk/YQjtC9lTxSIIkRxVe3OxPUZPcDgbiepqWXEHJGmTPDL8lTmln7OsuMD/NMWnLgdgxSYU8d5ujW5sXeH67YsIjZ6k5FOhuc2AlS2qZUozhRd/itWorbc9PBhisZRGvfhe0ocxAMifVTUeQaLVCFnG2QnMpxZwI0gTh07LHCcYb641lW3dA5HiBp+jQEZ573i5kGmNTL5lkvm7myVWCoDEqUcypyB1ytMSwMyhFbkHOwcNHOqkEieoWn4FRcdmg90YxLuaq0RNwHWZ58VKv1TFoOsG2EK/m4AskEIi70xHrGPSkql6XxfY9i1AdtxbArPRvmk5FLjWUKHOzv9Do5TJWmB4yKXYFi9Q0nYEOMoLFrbvAMDfvxYB7x0r3AxZjSXUS4xDEI7HzgAYleTYU2Kgy9O+kaxzVb8f4Jtyxj4ZXSR0oE8AukZR8VKqD0b4mxCZJrdGoynBDuRgG4UsQKyxbGkehy67Hra1RPqOORxQV68UjSu5euNZLtjGuMb4cqNa86ZGvIGg3zr6m5dUHzjA5bhS9Gd640QvvtGIlNs+iF1dq5hI4BVmZJTrBg8qWp1GQcr+hV7K8uCei8lxyxs+hFZWLo874wsgnEj9Z9k0prBlNQLQfh0b5XBn332/M64XyjdCgJpOUUqXkyyNwj2SjcYrJF7uXyeCuxTifVaQ5F2YnOaG51p+AVK44lVvzMNNSdJ6AVHJgp1GRut5jn88oseQVEQw9idJgkzNIyjA/vmK0J+z+sXOJaenkBB14UMUjgluUUojyEkzRDcl570KwHoaNE0zhr+mrflFBwZM6/ghQ5pvLxhcrxati4yF25aKEGooVyDDRriHJs5WIFbo0+WUFzX/4c9AW4lQQK+S6F9sj/Go4E7FGH+ExLKkVchn3xpLFqDsydb5och6LkC56UzXW3OxPlqLkvkmuQmKiEK9tOoMde4QcMd7TnMFrvR5D8XpAEiTyjHxPEL0uaz3XoiHru1m+iHgpSoVeQNgdBRv48Ww4cOrbYUmky8mYlXWkTG0uVNLTlFNVpvG625x2dkkznxw4GkgQvgS3HOsePUIpiiZPw9zcYuXGHawS06CAiEDghWxHbIshm8LXBt25IlTsWBzlH0+V7e7LyOVIXHrsYuqkmJA3zTLsik2BYHw+is0/bSFimbMhoUAGUGQ42MJFVQKwcT1wKnKBQEW+PMR5QijJq1eU4kXfZZrO5OiWqhRhbvav0chWASkXChP15jpjnl5j5UxVjNeqPOqPDVDTTPZKxhR5MvtG5BbzxiCFEHGdWcx+8Ywy4pKCRT5fFask/1RU0q9H+yOKlpSm8cLg3R/04KWkbBxElbwinHwCTipdnEZMscAFuxX5eADeluBVTK6gEyelxDmvLI7BtunUmytB1XqBi3X0F7K9ZlsU2ajfIPwJTm1mUyzQIsNBUICKU2lP3HLcsvdUOs1G6Sm0za1cqXcX4FAtxuvxCrIyWGwiA9pSxXjxvI6kTinzTBtTksqZEzS/KrTiw75IXmpInVlf3fAXN0jQ9fhydUFQtBmvAF33soSpTkVTk+4+LsM5uqe3Jz/kPsFlTGm9eYsdgxZjIr1y7gJE+PIErHREjPaqggXpQQHr6t8QjDoZs7IqvxyxS82EvDDEmoemza8iLzt+xXwPjkGLsSqxXIHnv7RQN3hSZcCNSyzFKyfoxS0dfFq52wqlThYDKHhHEL7yhWuvyBbHNYW/RlDs7eQdCGo4cMWQ+XPFsBohPggcgwOLJhaWyjwipCqX1k4wKK5OcB1GjS4uIgORsW2R6grIxwo5oUnq7odZPxWfDI9kUkunfIVrdQaN7hg0qu6jCXmOR5QEXj0NXE+NIzf709UmvyHKdw/jtnjR0pnNIEUlMoI9lMHjFZuJE4cFuPtEatEn/PweBrJZ0o4WYx2hQjXWo0vPIFuJsegQCxqvXvPjMg4iCpbpgjNeTGACdXFoxXwPjkGLsZpmzd7K6mpUEL4EoZDgqHG+IhnvIGzg5pHfuBJ9j3AMjV/QLJJlCl/PA2ZR49YgBKe0EKG4jEIe+20sECJtWTBJ+f29AW+axdaZmDRiKTEUYNeDL0Kpl6DIHQZnuy1VMSCjckwEevEJOdVvnH93MBgVtWzawAwydd5ZUGfwiBYpyEjn7uEKpklPS1Cf/D4JW6gde7t8a3XKWP7cljI0OcVx2YHtyPe0ST8ffIhTNcmIE4nFnf1FuuZoT1IE0r6Emk6R6oVg76rRPEbiatwy+R40/0BeGtjYHSKaVE17yutPmAEUUSL05+NGBty4hJpeSdwayBW1IEeXLYD52hCCpwqP8wLC5FPbHOrJk4oMHeGSDfuFaHdMgxBt4i/vOUE0TgN7Ho/Yt642ijLJ/krj1KxzJXdyynOHAvbjBecL30IrESnPmDLO2u22GuUPZ3U8YdS2CVnkwJmEYk16ESVNjT1PiAMZgiONwRSBN0tV+HGzv1o7w1w5lA+YgX2KPllxxOo31puaJpywRqNKaYcgHsf1N1NSKWE8r9BqC4TuPiVqggRplx3rHj2iP7F3g2Vk6W5z+XphxUf9HXcaNNa5Ga06qbli06t8T0D6+PYcXKbSxUQrNN3FV7s0UVLkUW4u+zajOpNR0oz4IhwKyZd3CSrBc5vwC7VuuAWk1tLfffPi6PFBg8IB4N/P60qlKM0gdxCodYG0K8+vKNCLhzbZMGnFefayKC9EMiCuVJoG8a1kXlCOBJJHBeH5hCTz4mn98EAgo+uSIsli1xNi8VPVby+in6ieS587N/sL9rrUNgviqYi8Vil8em0K286E81ryUmTyBASreK71cefhxSNK7pK5lnDbkNLdp6gaqstyR6QmZgo1pce+4slI8VyRbO6AEAOVF08xFpwRVEdKbNQ5tAo9I0nsXqGKugIFGyseCh1ZU2QZMNR5+PcCT5lELMEsQjR/sgKWiG4vOWka1zASt5b+iqNoCwnxLDdLdSVSjl3UdkBMXduuuxhQwAWJbVdjF2RlJeHrXHTrVgAYWkzkwDzjhe48HDiPZfzLDu5ZzeDUEzrx+1D7pjzuULNQhTE3+6upfT4z4ldMCLhCbVNqUyClJ9LTPdkFRFVJ03AOi7RRV5BIsYTrghmETPHcWIzVxAtSRQDrKhE6BJ9Dve42Tx9gXJslG4sPE7e46oyIC1wJrNJHLVEqY6JVOd9K4Go1Ml8oaoHUcaQHX4RdTtCL55O+x2jrVQjoxRV9FgvowrdPpJ3/aR//ArQnatCs9AIA

Le programme contient quatre parties:

1. L'entrée. Lire les types et calculer leurs identifiants.
2. La génération de texte. Génération de chaînes pour chacune des sorties possibles.
3. La table de recherche. Cette partie a été générée par ordinateur (voir ci-dessous). Déplace le pointeur sur le résultat correct.
4. Le résultat. J'imprime juste le résultat.

Structure principale du programme

,>,[-<++>],[-<+++>] read first type id
++++++[-<---------->] subtract 3c
+[,----------] skip until newline
>,>,[-<++>],[-<+++>] read second type id
++++++[-<---------->] subtract 3c
>- set @LOOPFLAG@ to get into loop
[
 >-< set @CHARFLAG@
 <,---------- get character; newline is 00 slash is 25
 [ was not newline
  ------------------------------------- slash is now 00
  [ was not slash
   >>+<< reset @CHARFLAG@
   [-] clear character
  ]
 ]
 >>[ was newline or slash (@CHARFLAG@ set)
  <+>+ reset @LOOPFLAG@ and @CHARFLAG@
 ]<
]
,>,[-<++>],[-<+++>] read third type id
<[->+>+<<]>[-<+>] copy third to @CHARFLAG@
>[ if @CHARFLAG@ is set
 [-] clear @CHARFLAG@
 <++++++[-<---------->]> subtract 3c from third
]<
++++++++[- do 8 times
 >++++++ put a 0 here
 >+++++++++++++++ put an x here
 >>++++++ put a 0 here
 >++++++ put a 0 here
 >++++++ put a 0 here
 >+++++++ put a 8 here
 >+++++++++++++++ put an x here
 >>++++++ put a 0 here
 >++++++ put a 0 here
 >+++++++ put a 8 here
 >+++++++++++++++ put an x here
 >>++++++ put a 0 here
 >+++++++++++++++ put an x here
 >>++++++ put a 0 here
 >+++++++++++++++ put an x here
 >>++++++ put a 0 here
 >+++++++++++++++ put an x here
 <<<<<<<<<<<<<<<<<<<<<< go back
]
>>>>>-- change 0 to dot
>++ change 0 to 2
>--- change 8 to 5
>>>>-- change 0 to dot
>--- change 8 to 5
>>>+ change 0 to 1
>>>++ change 0 to 2
>>>++++ change 0 to 4
<<<<<<<<<<<<<<<<<<<<<< go back
(lookup table here)
>[.>] print result

Voici le script qui génère la table de recherche:

typemap = [[int(value, 16), name] for value, name in [
    ["00", "(Nothing)"],
    ["02", "Ice"],
    ["07", "Fairy"],
    ["0f", "Dragon"],
    ["10", "Electric"],
    ["11", "Fighting"],
    ["12", "Grass"],
    ["1d", "Rock"],
    ["20", "Dark"],
    ["25", "Bug"],
    ["28", "Ghost"],
    ["2d", "Poison"],
    ["2e", "Steel"],
    ["32", "Fire"],
    ["39", "Water"],
    ["3c", "Ground"],
    ["46", "Normal"],
    ["4d", "Flying"],
    ["65", "Psychic"]
]]
multipliers = {
    0: 5,
    0.25: 8,
    0.5: 14,
    1: 19,
    2: 22,
    4: 25
}
types = [
    "Normal", "Fighting", "Flying", "Poison", "Ground", "Rock", "Bug", "Ghost", "Steel",
    "Fire", "Water", "Grass", "Electric", "Psychic", "Ice", "Dragon", "Dark", "Fairy"
]
results = [
    [2, 2, 2, 2, 2, 1, 2, 0, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2],
    [4, 2, 1, 1, 2, 4, 1, 0, 4, 2, 2, 2, 2, 1, 4, 2, 4, 1],
    [2, 4, 2, 2, 2, 1, 4, 2, 1, 2, 2, 4, 1, 2, 2, 2, 2, 2],
    [2, 2, 2, 1, 1, 1, 2, 1, 0, 2, 2, 4, 2, 2, 2, 2, 2, 4],
    [2, 2, 0, 4, 2, 4, 1, 2, 4, 4, 2, 1, 4, 2, 2, 2, 2, 2],
    [2, 1, 4, 2, 1, 2, 4, 2, 1, 4, 2, 2, 2, 2, 4, 2, 2, 2],
    [2, 1, 1, 1, 2, 2, 2, 1, 1, 1, 2, 4, 2, 4, 2, 2, 4, 1],
    [0, 2, 2, 2, 2, 2, 2, 4, 2, 2, 2, 2, 2, 4, 2, 2, 1, 2],
    [2, 2, 2, 2, 2, 4, 2, 2, 1, 1, 1, 2, 1, 2, 4, 2, 2, 4],
    [2, 2, 2, 2, 2, 1, 4, 2, 4, 1, 1, 4, 2, 2, 4, 1, 2, 2],
    [2, 2, 2, 2, 4, 4, 2, 2, 2, 4, 1, 1, 2, 2, 2, 1, 2, 2],
    [2, 2, 1, 1, 4, 4, 1, 2, 1, 1, 4, 1, 2, 2, 2, 1, 2, 2],
    [2, 2, 4, 2, 0, 2, 2, 2, 2, 2, 4, 1, 1, 2, 2, 1, 2, 2],
    [2, 4, 2, 4, 2, 2, 2, 2, 1, 2, 2, 2, 2, 1, 2, 2, 0, 2],
    [2, 2, 4, 2, 4, 2, 2, 2, 1, 1, 1, 4, 2, 2, 1, 4, 2, 2],
    [2, 2, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 4, 2, 0],
    [2, 1, 2, 2, 2, 2, 2, 4, 2, 2, 2, 2, 2, 4, 2, 2, 1, 1],
    [2, 4, 2, 1, 2, 2, 2, 2, 1, 1, 2, 2, 2, 2, 2, 4, 4, 2]
]
def getMultiplier(first, second, third):
    id1 = types.index(first)
    id2 = types.index(second)
    if third in types:
        id3 = types.index(third)
        return results[id1][id2] * results[id1][id3] / 4;
    else:
        return results[id1][id2] / 2

def genFirstType(second, third, remain, removed):
    mul = getMultiplier(remain[0][1], second, third)
    if len(remain) == 1:
        result = "[ first is not " + removed[1] + "\n"
        result += "thus first must be " + remain[0][1] + "\n"
        result += ">" * (multipliers[mul] - 1) + "[-]-> " + str(mul).replace(".", "").rstrip("0") + "x multiplier\n"
        result += "]\n"
        return result
    elif not removed:
        result = "<<" + "-" * remain[0][0] + " " + remain[0][1] + " is now 00\n"
        result += genFirstType(second, third, remain[1:], remain[0])
        result += "<+[ first is " + remain[0][1] + "\n"
        result += ">" * multipliers[mul] + "[-] " + str(mul).replace(".", "").rstrip("0") + "x multiplier\n"
        result += "]->\n"
        return result
    else:
        result = "[ first is not " + removed[1] + "\n"
        result += "-" * (remain[0][0] - removed[0]) + " " + remain[0][1] + " is now 00\n"
        result += genFirstType(second, third, remain[1:], remain[0])
        result += "<+[ first is " + remain[0][1] + "\n"
        result += ">" * multipliers[mul] + "[-] " + str(mul).replace(".", "").rstrip("0") + "x multiplier\n"
        result += "]->\n"
        result += "]\n"
        return result
def genSecondType(third, remain, removed):
    if len(remain) == 1:
        result = "[ second is not " + removed[1] + "\n"
        result += "thus second must be " + remain[0][1] + "\n"
        result += genFirstType(remain[0][1], third, typemap[1:], False)
        result += "]\n"
        return result
    elif not removed:
        result = "<<" + "-" * remain[0][0] + " " + remain[0][1] + " is now 00\n"
        result += genSecondType(third, remain[1:], remain[0])
        result += "<+[-> second is " + remain[0][1] + "\n"
        result += genFirstType(remain[0][1], third, typemap[1:], False)
        result += "<+]->\n"
        return result
    else:
        result = "[ second is not " + removed[1] + "\n"
        result += "-" * (remain[0][0] - removed[0]) + " " + remain[0][1] + " is now 00\n"
        result += genSecondType(third, remain[1:], remain[0])
        result += "<+[-> second is " + remain[0][1] + "\n"
        result += genFirstType(remain[0][1], third, typemap[1:], False)
        result += "<+]->\n"
        result += "]\n"
        return result
def genThirdType(remain, removed):
    if len(remain) == 1:
        result = "[ third is not " + removed[1] + "\n"
        result += "thus third must be " + remain[0][1] + "\n"
        result += genSecondType(remain[0][1], [item for item in typemap[1:] if item[1] != remain[0][1]], False)
        result += "]\n"
        return result
    elif not removed:
        result = "-" * remain[0][0] + " " + remain[0][1] + " is now 00\n"
        result += genThirdType(remain[1:], remain[0])
        result += "<+[-> third is " + remain[0][1] + "\n"
        result += genSecondType(remain[0][1], [item for item in typemap[1:] if item[1] != remain[0][1]], False)
        result += "<+]->\n"
        return result
    else:
        result = "[ third is not " + removed[1] + "\n"
        result += "-" * (remain[0][0] - removed[0]) + " " + remain[0][1] + " is now 00\n"
        result += genThirdType(remain[1:], remain[0])
        result += "<+[-> third is " + remain[0][1] + "\n"
        result += genSecondType(remain[0][1], [item for item in typemap[1:] if item[1] != remain[0][1]], False)
        result += "<+]->\n"
        result += "]\n"
        return result
def genLookup():
    return genThirdType(typemap, False)

def compact(code):
    import re
    return re.sub(r"[^+\-<>\[\],.]", "", code)
def golfStep(code):
    return code.replace("><", "").replace("<>", "").replace("+-", "").replace("-+", "")
def golf(code):
    previous = golfStep(code)
    while previous != code:
        previous, code = code, golfStep(code)
    return code

if __name__ == "__main__":
    import sys
    result = genLookup()
    if "-g" in sys.argv:
        print(golf(compact(result)))
    elif "-c" in sys.argv:
        print(compact(result))
    else:
        print(result)

BTW, cette réponse prend 29817 octets. :)

C ++ 14, 420 416

#include<iostream>
#include<string>
std::string m,t,n="NorFigFlyPoiGroRocBugGhoSteFirWatGraElePsyIceDraDarFai";int i;int main(){std::cin>>m>>t;auto k=[](auto y){return(i=6*n.find(m.substr(0,3))+n.find(y.substr(0,3))/3,i="J:2JJJ;YQJV>N:;ZIJJ5&ZJZ*[Y;KJVF;KZJ6I6YN>HJNJNFJZ:EYZJ:[UZIJ^J7JI:]9=JIZBJ>IINK:JFBZN:U:KJJ:JJ+FJNJN6NI:IJO"[i/3]-32>>i%3*2&3,i+i/3)/2.;};std::cout<<k(t)*((i=t.find(47)+1)?k(t.substr(i)):1)<<"x";}

La saisie doit être stdin et sous la forme Normal, Rock/Dragon

Version en direct .

Avec quelques espaces:

#include<iostream>
#include<string>
std::string m, t, n = "NorFigFlyPoiGroRocBugGhoSteFirWatGraElePsyIceDraDarFai";
int i;
int main(){
    std::cin >> m >> t;
    auto k = [](auto y){
        return(i = 6 * n.find(m.substr(0, 3)) + n.find(y.substr(0, 3)) / 3
            , i = "J:2JJJ;YQJV>N:;ZIJJ5&ZJZ*[Y;KJVF;KZJ6I6YN>HJNJNFJZ:EYZJ:[UZI"
            "J^J7JI:]9=JIZBJ>IINK:JFBZN:U:KJJ:JJ+FJNJN6NI:IJO"[i / 3] - 32 >> i % 3 * 2 & 3
            , i + i / 3) / 2.;
    }; 
    std::cout << k(t)*((i = t.find(47) + 1) ? k(t.substr(i)) : 1) << "x";
}

Tcl, 382

proc p a\ d [zlib i ...361 bytes...]

Le script contient des données compressées comprenant des octets non UTF-8. Voici le script exact encodé en base 64:
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== 

Utilise la zlibcommande pour la compression.

Lua, 758 661 633 octets

m={"222221201222222222","421124104222214241","242221421224122222","222111210224222224","220424124421422222","214212421422224222","211122211124242241","022222242222242212","222224221112124224","222221424114224122","222244222411222122","221144121141222122","224202222241122122","242422221222212202","224242221114221422","222222221222222420","212222242222242211","242122221122222442"}s="NorFigFlyPoiGroRocBugGhoSteFirWatGraElePsyIceDraDarFai"function f(a,d)z=string.sub n=tonumber _,r=s:find(z(a,1,3))r=r/3g,_,c=0,s:find(z(d,1,3))c=c/3p=d:find("/")or 0 e=m[r]_,g=s:find(z(d,p+1,p+3))g=g/3r=n(z(e,c,c))/2r=r*n(z(e,g,g))/2print(r.."x")end

Ungolfed:

m={"222221201222222222","421124104222214241","242221421224122222","222111210224222224","220424124421422222","214212421422224222","211122211124242241","022222242222242212","222224221112124224","222221424114224122","222244222411222122","221144121141222122","224202222241122122","242422221222212202","224242221114221422","222222221222222420","212222242222242211","242122221122222442"}
s="NorFigFlyPoiGroRocBugGhoSteFirWatGraElePsyIceDraDarFai"
function f(a,d)
    z=string.sub
    n=tonumber
    _,r=s:find(z(a,1,3))
    r=r/3
    g,_,c=0,s:find(z(d,1,3))
    c=c/3
    p=d:find("/") or 0
    e=m[r]
    _,g=s:find(z(d,p+1,p+3))
    g=g/3
    r=n(z(e,c,c))/2
    r=r*n(z(e,g,g))/2
    print(r.."x")
end

Appelez-le avec f("Grass","Water/Flying")

Python 3 - 362

k,*l=['rm gh yi is ou ck g os ee re te as ec yc e ag rk ir'.split().index(x[2:4])for x in input().replace('/',' ').split()]
s=[[0,0.5,1,2][[(ord(m)-40)//4**q%4 for m in'RB:RRRCaYR^FVBCbQRR=.bRb2caCSR^NCSbR>Q>aVFPRVRVNRbBMabRBc]bQRfR?RQBeAERQbJRFQQVSBRNJbVB]BSRRBRR3NRVRV>VQBQRW'for q in(0,1,2)][k*18+z]]for z in l]
v=s[0]*(s[1:]or[1])[0]
print(str(v//1+v%1)+'x')

Le format d’entrée est le type de mouvement et le type Pokemon, séparés par des espaces. Par exemple Fire Grass, ou Water Steel/Electric.

La table est stockée est une chaîne dont l'index de chaque caractère est compris entre 40 et 103 et représente 3 combinaisons de types. La liste des types est stockée en tant que 3ème et 4ème (si elle existe) caractères de chaque type, qui sont comparés aux 3ème et 4ème caractères de chaque type entré.

PHP, 426

eval('f('.fgets(STDIN).');');
function f($a,$d){
    $x=1;$r=array_fill_keys(explode('/',$d),$a);
    while(list($d,$a)=each($r)) {
        $x*=substr(gmp_strval(gmp_init('26gXl6oUL8Ekoey31DRp2k1Jq85b0G3f1PsFPfEnL1P6Bxh4vSloX8zWWa4XPBAGavHMKLgaGhPp2JPA3qQI3L9kkQ4kSHvu2vm76aLpJmu6TV8qcPTO0hchrLRh6G9',62),5),n($a)*18+n($d),1)/2;
    }
    echo$x.'x';
}
function n($p){return strpos('NorFigFlyPoiGroRocBugGhoSteFirWatGraElePsyIceDraDarFai',substr($p,0,3))/3;}

Exemple de saisie:

"Ground", "Fire"
"Normal", "Rock/Dragon"
"Fighting", "Ghost/Steel"
"Steel", "Water/Steel"
"Ice", "Dragon/Flying"
"Water", "Ground/Water"
"Ghost", "Ghost"

Exemple de sortie:

2x
0.5x
0x
0.25x
4x
1x
2x